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PDBsum entry 2fr5
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References listed in PDB file
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Key reference
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Title
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The 1.48 a resolution crystal structure of the homotetrameric cytidine deaminase from mouse.
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Authors
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A.H.Teh,
M.Kimura,
M.Yamamoto,
N.Tanaka,
I.Yamaguchi,
T.Kumasaka.
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Ref.
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Biochemistry, 2006,
45,
7825-7833.
[DOI no: ]
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PubMed id
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Abstract
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Cytidine deaminase (CDA) is a zinc-dependent enzyme that catalyzes the
deamination of cytidine or deoxycytidine to form uridine or deoxyuridine. Here
we present the crystal structure of mouse CDA (MmCDA), complexed with either
tetrahydrouridine (THU), 3-deazauridine (DAU), or cytidine. In the MmCDA-DAU
complex, it clearly demonstrates that cytidine is distinguished from uridine by
its 4-NH(2) group that acts as a hydrogen bond donor. In the MmCDA-cytidine
complex, cytidine, unexpectedly, binds as the substrate instead of the
deaminated product in three of the four subunits, and in the remaining subunit
it binds as the product uridine. Furthermore, the charge-neutralizing Arg68 of
MmCDA has also exhibited two alternate conformations, I and II. In conformation
I, the only conformation observed in the other structurally known homotetrameric
CDAs, Arg68 hydrogen bonds Cys65 and Cys102 to modulate part of their negative
charges. However, in conformation II the side chain of Arg68 rotates about 130
degrees around the Cgamma-Cdelta bond and abolishes these hydrogen bonds. The
lack of hydrogen bonding may indirectly weaken the zinc-product interaction by
increased electron donation from cysteine to the zinc ion, suggesting a novel
product-expelling mechanism. On the basis of known structures, structural
analysis further reveals two subclasses of homotetrameric CDAs that can be
identified according to the position of the charge-neutralizing arginine
residue. Implications for CDA-RNA interaction have also been considered.
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